An orthotropic material model for steel fibre reinforced concrete based on the orientation distribution of fibresEik, Marika; Puttonen, Jari; Herrmann, HeikoComposite structures2015 / p. 324-336 : ill http://dx.doi.org/10.1016/j.compstruct.2014.11.018

Analysis of short fibres orientation in steel fibre-reinforced concrete (SFRC) by X-ray tomographySuuronen, Jussi-Petteri; Eik, Marika; Herrmann, HeikoJournal of materials science2013 / p. 1358-1367 : ill

DC-conductivity testing combined with photometry for measuring fibre orientations in SFRCEik, Marika; Lõhmus, Karl; Tigasson, Martin; Listak, Madis; Puttonen, Jari; Herrmann, HeikoJournal of materials science2013 / p. 3745-3759 : ill

Orientation of short steel fibres in concrete : measuring and modelling = Metallist lühikiudude orientatsioon betoonis : mõõtmine ja modelleerimineEik, Marika2014 https://digi.lib.ttu.ee/i/?965 https://www.ester.ee/record=b3079293*est

Phenomenological and numerical modelling of short fibre reinforced cementitious compositesHerrmann, Heiko; Eik, Marika; Berg, Viktoria; Puttonen, JariMeccanica2014 / p. 1985-2000 : ill

Raytraced images for testing the reconstruction of fibre orientation distributionsEik, Marika; Herrmann, HeikoProceedings of the Estonian Academy of Sciences2012 / p. 128-136 : ill

Some comments on the theory of short fibre reinforced materialsHerrmann, Heiko; Eik, MarikaProceedings of the Estonian Academy of Sciences2011 / 3, p. 179-183 : ill

The effect of approximation accuracy of the orientation distribution function on the elastic properties of short fibre reinforced compositesEik, Marika; Puttonen, Jari; Herrmann, HeikoComposite structures2016 / p. 12-18 : ill http://dx.doi.org/10.1016/j.compstruct.2016.03.046